The rhomboid protease GlpG has weak interaction energies in its active site hydrogen bond network

Abstract: Intramembrane rhomboid proteases are of particular interest because of their function to hydrolyze a peptide bond of a substrate buried in the membrane. Crystal structures of the bacterial rhomboid protease GlpG have revealed a catalytic dyad (Ser201-His254) and oxyanion hole (His150/Asn154/the backbone amide of Ser201) surrounded by the protein matrix and contacting a narrow water channel. Although multiple crystal … Show more

“…Although rhomboids are related to the larger class of serine proteases, their rate of catalysis is unusually slow ( 2 ). In a new JGP paper, investigate the bacterial rhomboid protease GlpG, providing important insight into how this class of protease functions ( 3 ).…”

Rhomboids make do with a weak hydrogen bond

“…Although rhomboids are related to the larger class of serine proteases, their rate of catalysis is unusually slow ( 2 ). In a new JGP paper, investigate the bacterial rhomboid protease GlpG, providing important insight into how this class of protease functions ( 3 ).…”

Rhomboids make do with a weak hydrogen bond

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